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Part Manufacturer Description Datasheet Download Buy Part
ISL80101IR18Z-TK Intersil Corporation High Performance 1A LDO; DFN10; Temp Range: -40° to 125°C
ISL80102IR25Z Intersil Corporation High Performance 2A Linear Regulator; DFN10; Temp Range: -40° to 125°C
ISL80103IR25Z-T Intersil Corporation High Performance 3A Linear Regulator; DFN10; Temp Range: -40° to 125°C
ISL78010ANZ Intersil Corporation Automotive Grade TFT-LCD Power Supply; TQFP32; Temp Range: -40° to 105°C
ISL8010IUZ Intersil Corporation Monolithic 600mA Step-Down Regulator with Low Quiescent Current; MSOP10; Temp Range: -40° to 85°C
ISL80101IR25Z Intersil Corporation High Performance 1A LDO; DFN10; Temp Range: -40° to 125°C

sk 8010 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
KA1-8010

Abstract: KA1-8053 R1041 MA1-8015 MA6-1060 1SFC151002C0201 KA1-8052 KA1-8022 R8035 R8053
Text: prevent inadvertant operation. Not together with legend plate holder. SK 615 512-1 0.002 KA1- 8010 , -E (key code 73) SK 616 021-71 SK 616 021-72 SK 616 021-73 0.007 0.007 0.007 Label sheet For , text 0 For pushbutton Symbol/text H=39 mm W=29,6 mm 0 O Start Stop SK 615 550-61 SK 615 550-44 SK 615 552-31 0.002 0.002 0.002 SK 615 550-75 SK 615 552-55 0.002 0.002 SK 615 550-81 SK 615 550-80 SK 615 552-60 0.002 0.002 0.002 SK 615 546-1 SK 615 546-2


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PDF 1SFC151002C0201, 1SFC151111C0201 MA6-1060 R1060 MA6-1061 R1061 MA6-1062 R1062 MA6-1063 KA1-8010 KA1-8053 R1041 MA1-8015 MA6-1060 1SFC151002C0201 KA1-8052 KA1-8022 R8035 R8053
2006 - BLOCK DIAGRAM OF ZIGBEE interfacing 8051 by speed control

Abstract: circuit diagram of 8051 interfacing with zigbee DAC8550 8051 interfacing with zigbee theory of microprocessor 8051 DAC8850 DAC8551 DAC8550IDGKT DAC8550IDGKR DAC8550IBDGKR
Text: Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. 8 Time (400ns/div , /div) VOUT (500mV/div) VDD = 5V VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV , 2.7V VREF = 2.5V From Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 40 , EDGE VOUT (200mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV , therefore take this into account, and mirror the data as needed. DAC8550(1) P3.3 SK SCLK RXD


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PDF DAC8550 SLAS476D 16-BIT, 16-Bit DAC8531/01 DAC8551 BLOCK DIAGRAM OF ZIGBEE interfacing 8051 by speed control circuit diagram of 8051 interfacing with zigbee DAC8550 8051 interfacing with zigbee theory of microprocessor 8051 DAC8850 DAC8551 DAC8550IDGKT DAC8550IDGKR DAC8550IBDGKR
2005 - sk 8010

Abstract: DAC8550
Text: : 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. Figure 18. 8 Submit , VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV-s VDD = 5V VREF = 4.096V From Code: 8000 , Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 40. GLITCH ENERGY: 2.7V, 16LSB , ) VOUT (5mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV-s VDD = 2.7V , ) SYNC SCLK DIN MicrowireTM CS SK SO NOTE: (1) Additional pins omitted for clarity. DAC8554(1) SYNC


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PDF DAC8551 SLAS429B 16-BIT, 16-Bit DAC8531/01 DAC8550 DAC8551i sk 8010 DAC8550
2005 - DAC8551A

Abstract: DAC8550
Text: : 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. Figure 18. 8 Submit , VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV-s VDD = 5V VREF = 4.096V From Code: 8000 , Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 40. GLITCH ENERGY: 2.7V, 16LSB , ) VOUT (5mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV-s VDD = 2.7V , ) SYNC SCLK DIN MicrowireTM CS SK SO NOTE: (1) Additional pins omitted for clarity. DAC8554(1) SYNC


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PDF DAC8551 SLAS429B 16-BIT, 16-Bit DAC8531/01 DAC8550 DAC8551struments DAC8551A DAC8550
2005 - DAC8551

Abstract: DAC8551IDGK DAC8551IDGKR DAC8551IDGKT DIN65536 sk 8010
Text: , VREF = 4.096 V From Code: 8010 To Code: 8000 Glitch: 0.08 nV-s VOUT (500 mV/div) VOUT(500 mV , To Code: 8010 Glitch: 0.04 nV-s Time 400 ns/div Time 400 ns/div Figure 19. Figure 20 , : 2.7-V, 16-LSB STEP, FALLING EDGE VDD = 2.7 V, VREF = 2.5 V From Code: 8000 To Code: 8010 Glitch: 0.04 nV-s Time 400 ns/div VDD = 2.7 V, VREF = 2.5 V From Code: 8010 To Code: 8000 Glitch , serial clock and is clocked into the DAC8551 on the rising edge of the SK signal. MicrowireTM


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PDF DAC8551 SLAS429A 16-BIT, 16-Bit DAC8531/01 DAC8551 DAC8551IDGK DAC8551IDGKR DAC8551IDGKT DIN65536 sk 8010
2005 - sk 8010

Abstract: interfacing 8051 with pc c source code theory of microprocessor 8051
Text: , VREF = 4.096 V From Code: 8010 To Code: 8000 Glitch: 0.08 nV-s VOUT (500 mV/div) VOUT(500 mV , To Code: 8010 Glitch: 0.04 nV-s Time 400 ns/div Time 400 ns/div Figure 19. Figure 20 , : 2.7-V, 16-LSB STEP, FALLING EDGE VDD = 2.7 V, VREF = 2.5 V From Code: 8000 To Code: 8010 Glitch: 0.04 nV-s Time 400 ns/div VDD = 2.7 V, VREF = 2.5 V From Code: 8010 To Code: 8000 Glitch , serial clock and is clocked into the DAC8551 on the rising edge of the SK signal. MicrowireTM


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PDF DAC8551 SLAS429A 16-BIT, 16-Bit DAC8531/01 sk 8010 interfacing 8051 with pc c source code theory of microprocessor 8051
2005 - DIN65536

Abstract: No abstract text available
Text: V From Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VOUT (500 mV/div) VDD = 5 V, VREF = 4.096 V From Code: 8010 To Code: 8000 Glitch: 0.08 nV-s Time 400 ns/div Time 400 ns/div Figure 19 , Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VDD = 2.7 V, VREF = 2.5 V From Code: 8010 To Code: 8000 , the SK signal. MicrowireTM CS SK SO DAC8551(1) SYNC SCLK DIN Amplifier Resistor String DAC VOUT


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PDF DAC8551 SLAS429A 16-BIT, 16-Bit DAC8531/01 DAC8551 DIN65536
2005 - sk 8010

Abstract: DAC8550
Text: : 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. Figure 18. 8 Submit , VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV-s VDD = 5V VREF = 4.096V From Code: 8000 , Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 40. GLITCH ENERGY: 2.7V, 16LSB , ) VOUT (5mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV-s VDD = 2.7V , ) SYNC SCLK DIN MicrowireTM CS SK SO NOTE: (1) Additional pins omitted for clarity. DAC8554(1) SYNC


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PDF DAC8551 SLAS429B 16-BIT, 16-Bit DAC8531/01 DAC8550 DAC8551struments sk 8010 DAC8550
2005 - DAC8550

Abstract: No abstract text available
Text: : 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. Figure 18. 8 Submit , VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV-s VDD = 5V VREF = 4.096V From Code: 8000 , Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 40. GLITCH ENERGY: 2.7V, 16LSB , ) VOUT (5mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV-s VDD = 2.7V , ) SYNC SCLK DIN MicrowireTM CS SK SO NOTE: (1) Additional pins omitted for clarity. DAC8554(1) SYNC


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PDF DAC8551 SLAS429B 16-BIT, 16-Bit DAC8531/01 DAC8550 DAC8551struments DAC8550
2005 - sk 8010

Abstract: No abstract text available
Text: V From Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VOUT (500 mV/div) VDD = 5 V, VREF = 4.096 V From Code: 8010 To Code: 8000 Glitch: 0.08 nV-s Time 400 ns/div Time 400 ns/div Figure 19 , Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VDD = 2.7 V, VREF = 2.5 V From Code: 8010 To Code: 8000 , the SK signal. MicrowireTM CS SK SO DAC8551(1) SYNC SCLK DIN Amplifier Resistor String DAC VOUT


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PDF DAC8551 SLAS429A 16-BIT, 16-Bit DAC8531/01 DAC8551 sk 8010
2005 - DAC8550

Abstract: No abstract text available
Text: (500mV/div) Figure 15. VDD = 5V VREF = 4.096V From Code: 8000 To Code: 8010 Glitch: 0.04nV , 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV-s VDD = 5V VREF = 4.096V From Code: 8000 To , VOUT (200mV/div) Figure 38. VDD = 2.7V VREF = 2.5V From Code: 8000 To Code: 8010 Glitch , : 8010 To Code: 8000 Glitch: 0.12nV-s VOUT (5mV/div) Time (400ns/div) VDD = 2.7V VREF = 2.5V , therefore take this into account, and mirror the data as needed. DAC8554(1) P3.3 SK SCLK RXD


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PDF DAC8551 SLAS429B 16-BIT, 16-Bit DAC8531/01 DAC8550 DAC8550
2005 - DIN65536

Abstract: No abstract text available
Text: V From Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VOUT (500 mV/div) VDD = 5 V, VREF = 4.096 V From Code: 8010 To Code: 8000 Glitch: 0.08 nV-s Time 400 ns/div Time 400 ns/div Figure 19 , Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VDD = 2.7 V, VREF = 2.5 V From Code: 8010 To Code: 8000 , the SK signal. MicrowireTM CS SK SO DAC8551(1) SYNC SCLK DIN Amplifier Resistor String DAC VOUT


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PDF DAC8551 SLAS429A 16-BIT, 16-Bit DAC8531/01 DAC8551 DIN65536
2005 - DAC8550

Abstract: circuit diagram of 8051 interfacing with zigbee DAC8551 DAC8551IDGK DAC8551IDGKR DAC8551IDGKT theory of microprocessor 8051 8051 interfacing with zigbee sk 8010
Text: Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. 8 Time (400ns/div , /div) VOUT (500mV/div) VDD = 5V VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV , 2.7V VREF = 2.5V From Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 40 , EDGE VOUT (200mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV , therefore take this into account, and mirror the data as needed. DAC8554(1) P3.3 SK SCLK RXD


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PDF DAC8551 SLAS429B 16-BIT, 16-Bit DAC8531/01 DAC8550 DAC8550 circuit diagram of 8051 interfacing with zigbee DAC8551 DAC8551IDGK DAC8551IDGKR DAC8551IDGKT theory of microprocessor 8051 8051 interfacing with zigbee sk 8010
2006 - DAC8850

Abstract: 8051 reset circuit calculation DAC8550
Text: : 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. Figure 18. 8 Submit , VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV-s VDD = 5V VREF = 4.096V From Code: 8000 , Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 40. GLITCH ENERGY: 2.7V, 16LSB , ) VOUT (5mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV-s VDD = 2.7V , omitted for clarity. DAC8550(1) SYNC SCLK DIN MicrowireTM CS SK SO NOTE: (1) Additional pins omitted


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PDF DAC8550 SLAS476D 16-BIT, 16-Bit DAC8531/01 DAC8551 DAC8850 8051 reset circuit calculation DAC8550
2005 - Not Available

Abstract: No abstract text available
Text: GLITCH ENERGY: 5-V, 16-LSB STEP, FALLING EDGE VDD = 5 V, VREF = 4.096 V From Code: 8010 To Code , , RISING EDGE VDD = 5 V, VREF = 4.096 V From Code: 8000 To Code: 8010 Glitch: 0.04 nV-s Time 400 , : 8010 Glitch: 0.04 nV-s Time 400 ns/div VDD = 2.7 V, VREF = 2.5 V From Code: 8010 To Code , serial clock and is clocked into the DAC8551 on the rising edge of the SK signal. MicrowireTM DAC8551(1) Amplifier CS SYNC SK SCLK SO VFB DIN VOUT Resistor String DAC


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PDF DAC8551 SLAS429A 16-BIT, 16-Bit DAC8531/01
2005 - Not Available

Abstract: No abstract text available
Text: V From Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VOUT (500 mV/div) VDD = 5 V, VREF = 4.096 V From Code: 8010 To Code: 8000 Glitch: 0.08 nV-s Time 400 ns/div Time 400 ns/div Figure 19 , Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VDD = 2.7 V, VREF = 2.5 V From Code: 8010 To Code: 8000 , the SK signal. MicrowireTM CS SK SO DAC8551(1) SYNC SCLK DIN Amplifier Resistor String DAC VOUT


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PDF DAC8551 SLAS429A 16-BIT, 16-Bit DAC8531/01 DAC8551
2008 - MPD4-11B

Abstract: MCB-01 KT70-1001
Text: -502L CL-502R CL-502W CL-502Y CL-504G 8.35 8.35 8.35 8.35 8.35 KA1-8005 KA1- 8010 KA1- 8010 , . Page No. Catalog No. Page No. VII 1SXU 133 018 C0201 8 Alphanumeric MPD13-11Y – SK , -03 MP-NPE29W-04 MP-NPE29W-05 MP-NPE29W-06 MP-NPE29W-07 8.57 8.57 8.57 8.57 8.57 SK 615 552-29 SK 615 552-30 SK 615 552-31 SK 615 552-32 SK 615 552-39 MTS1-10B MTS1-30B MTS2-10B MTS2-30B MTS3-10B 8.17 8.17 8.17 8.17 8.17 SK 615 552-40 SK 615 552-52 SK 615 552-53 SK 615 552-55


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PDF C0201 MPD4-11B MCB-01 KT70-1001
2011 - R1019

Abstract: No abstract text available
Text: No file text available


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PDF 920R8128 1SFA619821R1000 1SFA619811R1000 CA1-8053 1SFA619920R8053 CA1-8054 1SFA619920R8054 MA1-8131 1SFA611920R8131 1SFC151004C0201. R1019
2006 - DAC8850

Abstract: sk 8010 DAC8550
Text: 5V VREF = 4.096V From Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Time , Code: 8010 To Code: 8000 Glitch: 0.08nV-s VDD = 5V VREF = 4.096V From Code: 8000 To Code: 80FF , /div) Figure 38. Time (400ns/div) VDD = 2.7V VREF = 2.5V From Code: 8000 To Code: 8010 , From Code: 8010 To Code: 8000 Glitch: 0.12nV-s VDD = 2.7V VREF = 2.5V From Code: 8000 To Code , . DAC8550(1) P3.3 SYNC TXD SK DIN NOTE: (1) Additional pins omitted for clarity. Figure


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PDF DAC8550 SLAS476E 16-BIT, 16-Bit DAC8531/01 DAC8551 DAC8850 sk 8010 DAC8550
2006 - EG 8010

Abstract: DAC8550
Text: -LSB STEP, FALLING EDGE VOUT(500 mV/div) VDD = 5 V, VREF = 4.096 V From Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VOUT (500 mV/div) VDD = 5 V, VREF = 4.096 V From Code: 8010 To Code: 8000 Glitch , 2.7 V, VREF = 2.5 V From Code: 8000 To Code: 8010 Glitch: 0.04 nV-s VDD = 2.7 V, VREF = 2.5 V From Code: 8010 To Code: 8000 Glitch: 0.12 nV-s Time 400 ns/div V/div) Time 400 ns/div Figure 43 , rising edge of the SK signal. MicrowireTM CS SK DAC8550(1) SYNC SCLK DIN Power-Down Circuitry


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PDF DAC8550 SLAS476C 16-BIT, 16-Bit DAC8550 EG 8010
2006 - Not Available

Abstract: No abstract text available
Text: Code: 8000 To Code: 8010 Glitch: 0.04nV-s VDD = 5V VREF = 4.096V From Code: 8010 To Code: 8000 , Code: 8000 To Code: 8010 Glitch: 0.04nV-s GLITCH ENERGY: 2.7V, 16LSB STEP, FALLING EDGE VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV-s VOUT (200mV/div) VOUT (200mV , DAC8552 on the rising edge of the SK signal. Figure 49 shows the connections between the DAC8552 and , to a single serial port of the DSP. DAC8552 MicrowireTM VDD DAC8552(1) CS SYNC SK


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PDF DAC8552 SLAS430A 16-BIT, 15nV-s 16-Bit 100dB
2006 - DAC8550

Abstract: No abstract text available
Text: 5V VREF = 4.096V From Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. GLITCH , (500mV/div) VOUT (5mV/div) VDD = 5V VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV , (200mV/div) VDD = 2.7V VREF = 2.5V From Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div , (200mV/div) VOUT (5mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV , : (1) Additional pins omitted for clarity. DAC8550(1) SYNC SCLK DIN MicrowireTM CS SK SO NOTE: (1


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PDF DAC8550 SLAS476E 16-BIT, DAC8550 16-bit 30MHz
2005 - DAC8550

Abstract: No abstract text available
Text: (500mV/div) Figure 15. VDD = 5V VREF = 4.096V From Code: 8000 To Code: 8010 Glitch: 0.04nV , 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV-s VDD = 5V VREF = 4.096V From Code: 8000 To , 38. VDD = 2.7V VREF = 2.5V From Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div , STEP, RISING EDGE VOUT (200mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 , therefore take this into account, and mirror the data as needed. DAC8554(1) P3.3 SK SCLK RXD


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PDF DAC8551 SLAS429B 16-BIT, 16-Bit DAC8531/01 DAC8550 DAC8550
2006 - DAC8850

Abstract: Texas Instruments 8010 *C8550 DAC85501 DAC8550
Text: 5V VREF = 4.096V From Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. GLITCH , (500mV/div) VOUT (5mV/div) VDD = 5V VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV , (200mV/div) VDD = 2.7V VREF = 2.5V From Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div , (200mV/div) VOUT (5mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV , : (1) Additional pins omitted for clarity. DAC8550(1) SYNC SCLK DIN MicrowireTM CS SK SO NOTE: (1


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PDF DAC8550 SLAS476E 16-BIT, DAC8550 16-bit 30MHz DAC8850 Texas Instruments 8010 *C8550 DAC85501
2005 - DAC8550

Abstract: sk 8010 DAC8551 DAC8551IDGK DAC8551IDGKR DAC8551IDGKT BY 269V
Text: Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 17. 8 Time (400ns/div , /div) VOUT (500mV/div) VDD = 5V VREF = 4.096V From Code: 8010 To Code: 8000 Glitch: 0.08nV , 2.7V VREF = 2.5V From Code: 8000 To Code: 8010 Glitch: 0.04nV-s Time (400ns/div) Figure 40 , EDGE VOUT (200mV/div) VDD = 2.7V VREF = 2.5V From Code: 8010 To Code: 8000 Glitch: 0.12nV , therefore take this into account, and mirror the data as needed. DAC8554(1) P3.3 SK SCLK RXD


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PDF DAC8551 SLAS429B 16-BIT, 16-Bit DAC8531/01 DAC8550 DAC8550 sk 8010 DAC8551 DAC8551IDGK DAC8551IDGKR DAC8551IDGKT BY 269V
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